KR101964626B1 - Air conditioner and method for distributing addresses of the same - Google Patents

Abstract

An air conditioner and an address distribution method thereof are disclosed. Embodiments of the present invention can automatically distribute the addresses of the indoor units at the start of the operation of the air conditioner and quickly distribute the addresses even when the indoor unit controller is replaced. The embodiments of the present invention allow the master outdoor unit to automatically distribute the addresses of the slave outdoor units and indoor units with the start of operation. In the embodiments of the present invention, the outdoor unit and the indoor unit each include a control unit and a communication module. The outdoor unit automatically sets the logical addresses of the indoor units at the start of operation of the air conditioner, By storing the logical address, the communication speed at the time of data transmission / reception is increased, and the communication efficiency and the operation efficiency of the air conditioner are increased.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioner,

The present invention relates to an air conditioner comprising at least one outdoor unit and a plurality of indoor units, and more particularly to an air conditioner for automatically distributing addresses for communication between an outdoor unit and a plurality of indoor units, and an address distribution method for the air conditioner. will be.

In general, an air conditioner includes a compressor for compressing a refrigerant to a high temperature and a high pressure, a condenser for converting high temperature and high pressure refrigerant transferred from the compressor into a liquid state of low temperature and high pressure by exchanging heat with ambient air, An evaporator for evaporating the refrigerant transferred through the expansion valve or the low temperature low pressure refrigerant transferred from the capillary to depressurize the surrounding heat to maintain the external temperature at a low temperature, An accumulator for filtering refrigerant in a liquid state from the refrigerant gas vaporized in the evaporator and allowing the refrigerant to flow into the compressor again, and a controller for controlling the overall operation of the air conditioner .

Meanwhile, the air conditioner is classified according to the type and number of the indoor unit, the outdoor unit, the control unit, and the connection unit. The RAC (Rotary Air Conditioner) composed of one indoor unit and the outdoor unit, one outdoor unit, a unit air conditioner consisting of at least one indoor unit and a duct, at least one outdoor unit, at least one indoor unit and a central air conditioner.

The air conditioner includes a separate type air conditioner in which an indoor unit and an outdoor unit are separated, an integrated type air conditioner in which an indoor unit and an outdoor unit are inserted as one unit, a wall-mounted type air conditioner and a frame type air conditioner configured to be mounted on the wall, A single type air conditioner configured to be used in a narrow place such as a home, and a capacity capable of driving one indoor unit.

The air conditioner according to the related art has not set a separate address to the outdoor unit in order to perform communication between the outdoor unit and the indoor unit and sets the address only to the indoor unit. In the conventional case, a hardware device such as an address setting button is provided in an outdoor unit, and when a user inputs an address setting command to the button, the user enters a mode for setting an address. In this case, when the indoor unit controller is replaced, the user or the like must again press the address setting button to enter the address setting mode and then repeat the address setting operation.

It is an object of the present invention to provide an air conditioner and an address distribution method thereof that can automatically distribute addresses to indoor units at the start of operation of the air conditioner.

The embodiments of the present invention are directed to an air conditioner including a master outdoor unit, at least one slave outdoor unit, and a plurality of indoor units, wherein the master outdoor unit is capable of automatically distributing addresses of slave outdoor units and indoor units And to provide an address distribution method therefor.

The air conditioner according to an embodiment includes an indoor unit control unit, a plurality of indoor units for performing air conditioning, and an outdoor unit having an outdoor unit control unit and controlling the indoor units. Here, at the start of the operation of the air conditioner, each of the indoor units transmits a unique address to the outdoor unit, and the outdoor unit distributes a logical address for each of the indoor units based on the unique addresses.

The air conditioner further includes a central controller connected to the outdoor unit via a network and controlling the outdoor units and the indoor units.

The air conditioner according to another embodiment includes a master outdoor unit and a slave outdoor unit control unit, each having an indoor unit control unit, a plurality of indoor units for performing air conditioning, a master outdoor unit control unit, And one or more slave outdoor units driven by the master outdoor unit and controlling the plurality of indoor units. At the start of the operation of the air conditioner, the indoor units and the slave outdoor units each transmit their unique addresses to the master outdoor unit, and the master outdoor unit generates logical addresses for the indoor units and the slave outdoor units based on the unique addresses / RTI >

An address distributing method of an air conditioner according to an embodiment includes an outdoor unit having a control unit and a communication module, and an air conditioner including a plurality of indoor units, wherein the air conditioner starts to operate by receiving power from the air conditioner And transmitting the unique addresses of the plurality of indoor units to the outdoor unit; and distributing the logical addresses of the indoor units based on the unique addresses of the outdoor unit.

The master outdoor unit is divided into a master outdoor unit and at least one slave outdoor unit. The address distribution method of the air conditioner includes the steps of: transmitting the master address pre-stored in the slave outdoor unit to the master outdoor unit; And distributing a logical address to the slave outdoor unit based on the logical address of the slave outdoor unit.

Embodiments of the present invention can automatically distribute the addresses of the indoor units at the start of the operation of the air conditioner and increase the operation efficiency of the air conditioner by distributing addresses even when the indoor unit controller is replaced.

The embodiments of the present invention allow the master outdoor unit to automatically distribute the addresses of the slave outdoor units and the indoor units at the start of operation, thereby enhancing the stability of the system and the user's convenience.

In the embodiments of the present invention, the outdoor unit and the indoor unit each include a control unit and a communication module. The outdoor unit automatically sets the logical addresses of the indoor units at the start of operation of the air conditioner, By storing the logical address, the communication speed at the time of data transmission / reception is increased, and the communication efficiency and the operation efficiency of the air conditioner are increased.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 and FIG. 2 are diagrams schematically showing the configuration of an air conditioner according to embodiments of the present invention;
3 is a block diagram schematically illustrating the configuration of devices in an air conditioner according to embodiments of the present invention;
4 is a diagram showing data transmission / reception of each device for explaining an address distribution operation according to the present invention;
5 is a view showing a form of a logical address of a slave outdoor unit or an indoor unit;
6 is a diagram showing logical addresses of respective devices in unicast or broadcast communication;
7 is a view for explaining an operation in which an indoor unit communication module requests a transmission of a logical address to an indoor unit controller;
8 is a time graph for explaining an address distribution operation according to the present invention; And
9 is a flowchart schematically illustrating an address distribution method of an air conditioner according to an embodiment.

1, an air conditioner according to an embodiment includes a plurality of indoor units 100, 100a, 100b, and 100c each having an indoor unit controller and performing air conditioning, and an outdoor unit controller, And an outdoor unit (200) for controlling the outdoor unit (200). At the start of operation of the air conditioner, each of the indoor units 100 transmits a unique address to the outdoor unit. At this time, the outdoor unit 200 distributes the logical addresses for the indoor units based on the unique addresses.

Referring to FIG. 1 again, the air conditioner further includes a central controller 500 connected to the outdoor unit 200 through a network and controlling the outdoor units 200 and the indoor units 100. The central controller 500 may be connected to a user terminal. The central controller 500 allows the user or the like to monitor or control the position, state, operation information, and the like of all the devices constituting the air conditioner. The central controller 500 is connected to an outdoor unit via a network. A dedicated line such as RS-485 or the Internet is used as the network.

The air conditioner may further include a gateway (not shown) provided between the central controller 500 and the outdoor unit 200 to perform protocol conversion and to allow the central controller 500 to control the air conditioner. The gateway may control the outdoor unit directly by incorporating a control program. The gateway is connected to each outdoor unit through a dedicated line communication method such as RS-485 or a LAN (Local Area Network), and transmits / receives data. In another example, the gateway may serve as a link between a central controller and a building management system. At this time, the gateway converts communication protocols such as LonWorks and BACnet into communication protocols in the air conditioner or inversely.

3, the indoor unit 100 includes an indoor unit control unit 110 having an indoor unit driving program and driving an indoor unit, an indoor unit communication module 120 connected to the outdoor unit 200 through a communication line and transmitting / receiving data, . The indoor unit controller 110 includes an indoor unit microcomputer 110a for storing the logical address and driving the indoor unit, and a memory 110b for storing the unique address. Here, a dedicated line such as RS-485 or the Internet is used as the communication line.

The unique address means the address of the indoor unit itself which is set and stored when the indoor unit is manufactured or installed. This is generally different depending on the model, but is made up of 3 bytes and is stored in the memory 110b. As the memory 110b, an EEPROM is generally used.

On the other hand, the logical address is an address assigned to the indoor unit by the outdoor unit, and is used when the outdoor unit transmits / receives data to / from the indoor unit. The form of the logical address may be differently defined according to the configuration of the air conditioner, and may be 4 bytes, for example, as shown in FIG. 5 and FIG. Referring to FIG. 5, the logical address consists of 4 byes, and an indoor address space for dividing indoor units can be allocated to 2 bytes. The logical address may further include a central controller address area of 1 byte and a master outdoor area address area of 1 byte. Referring to FIG. 6, logical addresses have different addresses according to a method of transmitting and receiving data, that is, a unicast and a subnet broadcast. In the unicast method, an outdoor unit or a central controller designates a logical address and transmits / receives data to / from the indoor unit corresponding to the logical address. On the other hand, the subnet broadcast scheme is a scheme in which an outdoor unit or a central controller sends the same command to all the indoor units in the subnet or transmits and receives the same data.

The outdoor units 200, 210 and 220 include outdoor unit control modules 211 and 221 and outdoor unit communication modules 212 and 222 connected to the indoor unit communication module 120 through the communication line and transmitting and receiving the data, do.

When the user inputs power to the air conditioner and the air conditioner starts to operate, the indoor units 100 connected to the outdoor unit 200 automatically transmit the unique address to the outdoor unit even if there is no request of the outdoor unit. That is, the indoor unit communication module 120 requests the indoor unit controller 110 to transmit a unique address (operation I in FIG. 4), receives the unique address, and transmits the unique address to the outdoor unit communication module (operation II and operation III in FIG. 4) . That is, the indoor unit communication module 120 requests the indoor unit controller 110 to transmit the unique address stored in the memory 110b at the start of the operation of the air conditioner, and transmits the received unique address to the outdoor unit communication module .

The indoor unit communication module 120 can check whether the logical address is distributed (set) to the microcomputer 110a of the indoor unit controller 110 before. Referring to FIG. 7, the indoor unit communication module 120 transmits a message requesting transmission of a logical address to the indoor unit controller. At this time, for example, the indoor communication module 120 transmits a message as shown in FIG. 7 to the microcomputer of the indoor unit control unit at a predetermined time interval (for example, 5 seconds) for a predetermined number of times. When receiving the logical address, the indoor unit communication module stores the received logical address for communication with the outdoor unit, since it is not necessary to request distribution of the logical address to the outdoor unit communication module. In this case, the air conditioner performs only the I and VI operations in Fig.

When the new indoor unit 100 is connected to the outdoor unit 200 or the indoor unit controller 110 is replaced with the new indoor unit 100, the indoor unit communication module 120 of the indoor unit communication module 120 may be connected to the indoor unit controller 110 in the new indoor unit 100, (Operation I in FIG. 4), and transmits the received unique address to the outdoor unit communication module 110 (operation II and operation III in FIG. 4).

The outdoor unit control unit receives the unique addresses of all the indoor units connected to the outdoor unit from the outdoor unit communication module and distributes the logical addresses to the indoor units. The operation of distributing logical addresses will be briefly described with reference to Fig. In FIG. 8, the master outdoor unit may correspond to an outdoor unit, and the slave may correspond to an indoor unit. That is, when the slave # 1 transmits its own address to the master outdoor unit, the master outdoor unit distributes the logical address to the slave # 1. In the case of slaves # 2 and # 3, logical addresses are distributed by the same operation. At this time, the outdoor unit may receive the unique address of all connected indoor units, and then perform logical address distribution.

Referring to FIG. 2, the air conditioner according to another embodiment includes a plurality of indoor units 100, each having an indoor unit control unit and performing air conditioning, and a master outdoor unit control unit. And a slave outdoor unit 220. The slave outdoor unit 220 is driven by the master outdoor unit and controls the plurality of indoor units. Here, at the start of the operation of the air conditioner, the indoor units 100 and the slave outdoor units 220 transmit unique addresses to the master outdoor unit. At this time, the master outdoor unit 210 distributes logical addresses to the indoor units 100 and the slave outdoor units 220 based on the unique addresses.

2, the air conditioner is connected to the master outdoor unit 210 through a network (a third communication line 430) and controls the master outdoor unit, the slave outdoor unit 220, and the indoor units 100 And may further include a central controller 500.

Referring to FIG. 3, the indoor unit 100 includes an indoor unit controller 110 and an indoor unit communication module 120. The indoor communication module 120 is connected to the master outdoor unit 210 through a first communication line 410 and transmits and receives first data. Meanwhile, the slave outdoor communication module 222 is connected to the master outdoor unit 210 via the second communication line 420 and transmits and receives second data. The indoor unit controller 110 includes an indoor unit microcomputer 110a for storing the logical address and driving the indoor unit, and a memory 110b for storing the unique address. Here, the first communication line 410 is a dedicated line such as RS-485 or the Internet. The second communication line 420 may be a dedicated line or the Internet, or may be a separate internal communication line.

The slave outdoor unit 220 includes a slave outdoor unit control unit 221 and a slave outdoor unit communication module 222. The slave outdoor unit control unit 221 also includes a slave outdoor unit microcomputer 221a for storing the logical address of the slave outdoor unit and driving the slave outdoor unit and indoor units connected thereto, and a memory 221b for storing the unique address.

The unique address means the address of the indoor unit itself which is set and stored when the indoor unit or the slave outdoor unit is manufactured or installed. This is generally different according to the model, but is made up of 3 bytes and is stored in the memories 110b and 221b. EEPROM is generally used as the memory.

On the other hand, the logical address is an address to which the master outdoor unit 210 distributes to the indoor unit 100 or the slave outdoor unit 220, and is used when the master outdoor unit exchanges data with the indoor unit or the slave outdoor unit. The form of the logical address may be differently defined according to the configuration of the air conditioner, and may be 4 bytes, for example, as shown in FIG. 5 and FIG. Referring to FIG. 5, the logical address consists of 4 byes, and a slave outdoor / indoor address area for dividing the indoor unit or the slave outdoor unit can be allocated to 2 bytes. The logical address may further include a central controller address area of 1 byte and a master outdoor area address area of 1 byte. Referring to FIG. 6, logical addresses have different addresses according to a method of transmitting and receiving data, that is, a unicast and a subnet broadcast. In the unicast method, a master outdoor unit or a central controller designates a logical address and transmits / receives data to / from a slave outdoor unit or an indoor unit corresponding to the logical address. On the other hand, the subnet broadcast method is a method in which the master outdoor unit or the central controller sends the same command to all slave outdoor units and indoor units in the subnet or transmits and receives the same data.

The master outdoor unit 210 includes a master outdoor unit control unit 211 and a master outdoor unit communication module 212. The master outdoor module communication module 212 is connected to the indoor module communication module 120 through a first communication line and transmits and receives first data and is connected to the slave outdoor module communication module 222 through a second communication line, Lt; / RTI >

The indoor units 100 and the slave outdoor units 220, which are connected to the master outdoor unit 210 automatically when the air conditioner starts operation, To the outdoor unit. That is, the indoor communication module 120 or the slave outdoor communication module 222 requests the indoor unit control unit 110 or the slave outdoor unit control unit 221 to transmit a unique address (operation I in FIG. 4) To the master outdoor unit communication module 212 (operations II and III in Fig. 4). That is, the indoor unit communication module 120 or the slave outdoor unit communication module 222 transmits a unique address stored in the memories 110b and 221b to the indoor unit control unit 110 or the slave outdoor unit control unit 221 at the start of operation of the air conditioner. And transmits the received unique address to the master outdoor module communication module 212. [0050]

The logical address is distributed (set) to the microcomputer 221a of the microcomputer 110a of the indoor unit controller 110 or the microcomputer 221a of the slave outdoor unit controller 221 before the indoor communication module 120 or the slave outdoor communication module 222 . Referring to FIG. 7, the indoor unit communication module 120 transmits a message requesting transmission of a logical address to the indoor unit controller. At this time, for example, the indoor communication module 120 transmits a message as shown in FIG. 7 to the microcomputer of the indoor unit control unit at a predetermined time interval (for example, 5 seconds) for a predetermined number of times. When receiving the logical address, the indoor unit communication module stores the received logical address for communication with the outdoor unit, since it is not necessary to request distribution of the logical address to the outdoor unit communication module. In this case, the air conditioner performs only the I and VI operations in Fig. The slave outdoor unit is also the same as the indoor unit.

The indoor unit communication module 120 may control the indoor unit controller 110 in the new indoor unit 100 when the new indoor unit 100 is connected to the master outdoor unit 210 or the slave outdoor unit 220 or the indoor unit controller 110 is replaced. 4), and transmits the received unique address to the master outdoor unit communication module (refer to steps II and III of FIG. 4) ).

The master outdoor unit control unit 211 receives unique addresses of all the slave outdoor units 220 and the indoor units 100 connected to the master outdoor unit from the master outdoor unit communication module 212 and distributes logical addresses to the slave outdoor units and indoor units do. The operation of distributing logical addresses will be briefly described with reference to Fig. Referring to FIG. 8, when the slave # 1 (including the slave outdoor unit and the indoor unit) transmits its own address to the master outdoor unit, the master outdoor unit distributes the logical address to the slave # 1. In the case of slaves # 2 and # 3, logical addresses are distributed by the same operation. At this time, the master outdoor unit may receive the unique addresses of all connected slave outdoor units and indoor units, and then perform logical address distribution.

9, an address distributing method of an air conditioner according to an embodiment includes an outdoor unit having a control unit and a communication module, and an air conditioner including a plurality of indoor units, (S10) of receiving the indoor addresses of the plurality of indoor units, starting to receive the indoor addresses of the plurality of indoor units, and transmitting the unique addresses stored in the indoor units to the outdoor units (S20) And distributing the address (S30). The configuration of the apparatus is described below with reference to Figs.

If the user inputs power to the air conditioner and the air conditioner starts to operate (S10), the indoor units automatically connected to the outdoor unit transmit the unique address to the outdoor unit even though there is no request of the outdoor unit (S20). Specifically, the indoor unit communication module requests the indoor unit controller to transmit the unique address (operation I in FIG. 4), receives the unique address, and transmits the unique address to the outdoor unit communication module (operations II and III in FIG. That is, when the operation of the air conditioner is started, the indoor unit communication module requests the indoor unit controller to transmit the unique address stored in the memory, and transmits the unique address to the outdoor unit communication module.

The indoor unit communication module can check whether the logical address is distributed (set) to the microcomputer of the indoor unit control unit (S31). Referring to FIG. 7, the indoor unit communication module transmits a message requesting transmission of the logical address to the indoor unit controller. At this time, for example, the indoor communication module transmits a message as shown in FIG. 7 to the microcomputer of the indoor unit control unit at a predetermined time interval (for example, 5 seconds) for a predetermined number of times. Upon reception of the logical address, the indoor unit communication module does not need to request distribution of the logical address to the outdoor unit communication module, so the received logical address is stored for communication with the outdoor unit (S32). In this case, the air conditioner performs only the I and VI operations in Fig. The outdoor unit distributes a new logical address to the indoor units whose logical addresses are not distributed (S33). As another example, even if some indoor units have logical addresses, the entire logical address can be redistributed.

When the new indoor unit is connected to the outdoor unit or the indoor unit controller is replaced in operation S40, the indoor unit communication module requests the indoor unit controller in the new indoor unit or the replaced indoor unit controller in the new indoor unit to transmit a unique address (I operation in FIG. 4) And transmits the received unique address to the outdoor unit communication module (operation II, III in FIG. 4) (50).

The outdoor unit control unit receives the unique address of all the indoor units connected to the outdoor unit from the outdoor unit communication module, and distributes the logical addresses to the indoor units (S60).

The outdoor unit may be divided into a master outdoor unit and at least one slave outdoor unit. At this time, the address distributing method of the air conditioner includes the steps of: transmitting the master address stored in advance to the slave outdoor unit to the master outdoor unit; and distributing the logical address to the slave outdoor unit based on the unique address Further comprising the steps of: The configuration of the apparatus will be described with reference to Figs. 2 and 3. Fig.

When a user or the like inputs power to the air conditioner and the air conditioner starts operating, the slave outdoor unit automatically transmits the unique address to the master outdoor unit even when there is no request from the master outdoor unit. That is, the slave outdoor communication module requests transmission of the unique address to the slave outdoor unit control unit (operation I in FIG. 4), receives the unique address, and transmits the unique address to the master outdoor unit communication module (operations II and III in FIG. That is, at the start of the operation of the air conditioner, the slave outdoor module communication module requests the slave outdoor module controller to transmit a unique address stored in the memory, and transmits the received unique address to the master outdoor module communication module. The master outdoor unit control unit receives the unique address of the slave outdoor unit connected to the master outdoor unit from the master outdoor unit communication module and distributes the logical address to the slave outdoor unit.

As described above, the air conditioner and the address distribution method according to the embodiments of the present invention can automatically distribute the addresses of the indoor units at the start of the operation of the air conditioner, Distribute addresses. The embodiments of the present invention allow the master outdoor unit to automatically distribute the addresses of the slave outdoor units and indoor units with the start of operation. In the embodiments of the present invention, the outdoor unit and the indoor unit each include a control unit and a communication module. The outdoor unit automatically sets the logical addresses of the indoor units at the start of operation of the air conditioner, By storing the logical address, the communication speed at the time of data transmission / reception is increased, and the communication efficiency and the operation efficiency of the air conditioner are increased.

100, 100a, 100b, 100c, 100d, 100n: indoor unit
200: outdoor unit 210: master outdoor unit
220: Slave outdoor unit 300: Refrigerant piping
400: communication line 500: central controller
110: indoor unit controller 120: indoor unit communication module
211: master outdoor unit control unit 212: master outdoor unit communication module
221: Slave outdoor unit control unit 222: Slave outdoor unit communication module

Claims (18)

A plurality of indoor units, each having an indoor unit communication module connected to the indoor unit controller and the outdoor unit through a communication line and transmitting and receiving data, and performing air conditioning; And
And an outdoor unit having an outdoor unit control unit and controlling the indoor units,
At the start of the operation of the air conditioner, each of the indoor units transmits a unique address to the outdoor unit,
Wherein the outdoor unit distributes a logical address for each of the indoor units based on the unique addresses,
The indoor unit control unit includes:
An indoor microcomputer for storing the logical address and driving the indoor unit; And
And a memory for storing the unique address,
The indoor unit communication module includes:
Requesting transmission of the logical address previously stored in the indoor unit microcomputer at the start of the operation, and requesting transmission of the unique address stored in the memory when the logical address is not received. delete The outdoor unit according to claim 1,
And an outdoor unit communication module connected to the indoor unit communication module and the communication line and transmitting and receiving the data. The indoor unit communication module according to claim 3,
And requests confirmation of the logical address according to a predetermined request criterion. The indoor unit communication module according to claim 4,
Wherein the controller stores the received logical address when receiving the logical address as a result of requesting the indoor microcomputer to transmit the logical address. The indoor unit communication module according to claim 4,
And transmits the received unique address to the outdoor unit communication module when receiving the unique address as a result of requesting the indoor unit controller to transmit the unique address stored in the memory. The indoor unit communication module according to claim 4,
Wherein when the new indoor unit is connected or the indoor unit controller is replaced, the indoor unit controller requests the corresponding indoor unit controller to transmit the unique address and transfers the received unique address to the outdoor unit communication module. 8. The method according to any one of claims 1 to 7,
And a central controller connected to the outdoor unit through a network and controlling the outdoor unit and the indoor units. A plurality of indoor units each having an indoor unit control unit and an indoor unit communication module and performing air conditioning;
A master outdoor unit having a master outdoor unit control unit and controlling the indoor units; And
And at least one slave outdoor unit having a slave outdoor unit control unit and being driven by the master outdoor unit and controlling the plurality of indoor units,
At the start of operation of the air conditioner, each of the indoor units and the slave outdoor units transmits unique addresses to the master outdoor unit,
The master outdoor unit distributes logical addresses to the indoor units and the slave outdoor units based on the unique addresses,
The indoor unit control unit includes:
An indoor microcomputer for storing the logical address and driving the indoor unit; And
And an indoor unit memory for storing the unique address,
The indoor unit communication module includes:
Requesting transmission of the logical address stored in the indoor unit microcomputer at the start of the operation, requesting transmission of the unique address stored in the indoor unit memory when the logical address is not received, and transmitting the unique address to the master outdoor unit The air conditioner comprising: 10. The method of claim 9,
Wherein the indoor unit communication module is connected to the master outdoor unit via a first communication line and transmits and receives first data,
Wherein the slave outdoor unit further comprises a slave outdoor unit communication module connected to the master outdoor unit through a second communication line and transmitting and receiving second data. 11. The outdoor unit of claim 10, wherein the master outdoor unit comprises:
An indoor communication module connected to the indoor communication module via the first communication line to transmit and receive the first data,
And a master outdoor module communication module connected to the slave outdoor module communication module and the second communication line to transmit and receive the second data. 12. The method according to any one of claims 9 to 11,
And a central controller connected to the master outdoor unit and the third communication line and controlling the master outdoor unit, the slave outdoor unit and the indoor units. 13. The outdoor unit of claim 12, wherein the slave outdoor-
An outdoor microcomputer for storing the logical address; And
And an outdoor unit memory for storing the unique address. 14. The method of claim 13,
Wherein the logical address comprises an address area for the central controller, an address area for the master outdoor unit, and an address area for the slave outdoor unit or the indoor unit. An air conditioner including an outdoor unit having a control unit and a communication module, and a plurality of indoor units,
The operation of the air conditioner is started by receiving power from the air conditioner;
Transmitting, to the outdoor unit, unique addresses previously stored in each of the plurality of indoor units; And
And distributing a logical address for each of the indoor units based on the unique addresses,
The indoor unit control unit includes:
An indoor microcomputer for storing the logical address and driving the indoor unit; And
And an indoor unit memory for storing the unique address,
Wherein the transmitting the unique addresses comprises:
A step in which the indoor unit communication module requests transmission of the logical address previously stored in the indoor unit microcomputer; And
And if the indoor communication module receives the logical address, storing the logical address without transmitting the unique address to the outdoor communication module. 16. The method of claim 15, wherein transmitting the unique addresses comprises:
A step of requesting the indoor unit communication module to transmit the unique address to the indoor unit communication module when the logical address is not received as a result of requesting the indoor unit micom to transmit the logical address; And
And transmitting the unique address received by the indoor unit communication module to the outdoor unit communication module. 16. The method of claim 15, wherein the step of requesting transmission of the logical address comprises:
And requesting transmission of the logical address according to a predetermined request criterion. 18. The method according to any one of claims 15 to 17,
Wherein the outdoor unit is divided into a master outdoor unit and at least one slave outdoor unit,
Transmitting a unique address previously stored in the slave outdoor unit to the master outdoor unit; And
And distributing the logical address to the slave outdoor unit based on the unique address of the master outdoor unit.

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